View allAll Photos Tagged Deflectors
Strobist:
Key: 17'' beauty dish with silver deflector and sock, above camera.
Fill: 2x gridded strip boxes camera left and right + 80x60cm softbox underneath.
Background: 2 x 66x66cm soft boxes left and right onto a seamless white backdrop.
Hover Tank Grell, designed to combat Frames and other Tanks.
Equipped with Heavy Gauss Cannon, Dual Armor Deflectors and Hover Drive.
Automotive history is littered with examples of luxury sedans that didn't quite make it for a variety of reasons, ranging from horrifying styling to devastating unreliability. Some were plagued with issues before they went on sale, while others wilted on the second or third generation (I'm looking at you, Ford Taurus!). So what were some of the least successful most craptacular luxury sedans of the last 40 years?
1. Aston Martin Lagonda - no surprise here, as the angles of this car were sharp enough to deflect not only radar, but also customers. Styled with a ruler by William Towns (who actually did some good cars), the prototype kicked off the parade of awfulness by stalling on its way to the podium during its London premiere. Star Trek internal controls that rarely worked sealed the deal.
2. The Cadillac by Cimarron - or was it the other way around? Wasn't there like a third part? Oh wait, I'm thinking of the Buick Opel by Isuzu. In any case, the GM by Cimaddilac was a midsize Cimarron that was not particularly pleasing to own, look at, or drive. Print and TV adversiting pointedly avoided refering to it as a Cadillac because GM felt it would tarnish the brand's image. This brash display of self-confidence paid off, and nobody ever confused it with the paragon of excellence that was Cadillac of the 1980's.
3. GAZ 3105 - this innovative luxury sedan was supposed to take over from the venerable 3102 midsize executive sedan in the early 1990's, and featured an automatic gearbox, a V8 engine, AWD, and futuristic (for 1990's Russia) styling. Factory management, however, didn't really have the whole concept of supply/demand nailed, so it made the car without first checking to see if there was a market for it. Approximately 90 were handmade to order over the course of two short years.
4. Rover Sterling - the project intended to combine the best of British design and Japanese engineering ended up mashing together the worst of British engineering and Japanese design. Acura got the sweeter end of the deal, as the Honda Legend that it was based on was quite a hit.
5. GAZ 3111 - GAZ's second attempt during the 1990's to produce a modern full-size sedan fell flat for pretty much the same set reasons as the 3105, but this time several hundred more cars made it out the door. Everything from supplier issues to a market crash contributed to its failure. Unsold examples sat around at some dealerships till 2002.
6. Tatra T700 - based on the Vignale-penned 613 which was in production since 1974, the T700 was a slightly naff facelift that reeked of desperation as it tried to cover up the car's age. The economical climate of 1990's Czech Republic and the influx of vastly superior imports made the T700 almost entirely moot.
7. Maserati Quattroporte III - not an unattractive concept that went into production during Alejandro De Tomaso's reign, the bulky Qporte III raided the De Tomaso parts bin and kicked off a decade of Maseratis that hardly anyone wanted. In person, the plush interior almost makes up for mechanical awfulness. Almost.
8. Cadillac Fleetwood V-8-6-4 - that's right, that early 80's Caddy that tried to implement a cylinder shutdown system in order to save fuel. The concept itself was a couple decades too early, and one doesn't need to guess too hard how well Cadillac executed it. Not to imply that the regular Fleetwood was particularly wonderful.
9. Avanti Sedan - a few dozen were made in the early 90's just as Avanti was struggling along. (Wait, that pretty much describes its entire history as an independent company). In any case, the visage of that sedan is still burned into my retinas, and I want it to go away. So I'm listing it here in the hopes that you'll search for it on the web so that it torments you too.
10. Eagle Premier/Dodge Monaco - based on the Renault 25 and assembled in Canada, the 25 itself was a capable car by 1980's French standards, but AMC's and Chrysler's clearinghouse division execution was uninspired, to say the least, which is why you never see one on the streets.
These guys are very rare on the battlefield, The are issued a Heavy repeating blaster for maximum damage. These 1 man armies are equiped with jump jets, and deflective armor.
60103 Cramlington 1
Dont understand why blinkers are known as smoke deflectors
These ones are useless and look awful
More on this shot at kidona.com.
Strobist: 3 lights. Key is an Elinchrom ELC Pro HD 500 in the MiniSoft w/ silver deflector, f/5.6. Background light is another HD 500 in the beckground reflector, f/8. Kicker to the right is a Quadra A head in the PortaLight, f/5.6. White reflector under. I shot this 1/3 of a stop over, at f/5.
Triggered by Skyport.
PP in LR/PS CC 2015
© Donald J. Fadel, Jr. | kidona.com
Nikon D750, 50/1.4D
2x flash thru Westcott Rapid Box Duo camera left. The soft box was equipped with the deflector plate and the grid
Flashes: Yongnuo YN560 III and Yongnuo YN560 IV
Processed with Silver Efex Pro for PS CC
Quoting Smithsonian National Air and Space Museum | Vought OS2U-3 Kingfisher:
The Kingfisher was the U.S. Navy's primary ship-based, scout and observation aircraft during World War II. Revolutionary spot welding techniques gave it a smooth, non-buckling fuselage structure. Deflector plate flaps that hung from the wing's trailing edge and spoiler-augmented ailerons functioned like extra flaps to allow slower landing speeds. Most OS2Us operated in the Pacific, where they rescued many downed airmen, including World War I ace Eddie Rickenbacker and the crew of his B-17 Flying Fortress.
In March 1942, this airplane was assigned to the battleship USS Indiana. It later underwent a six-month overhaul in California, returned to Pearl Harbor, and rejoined the Indiana in March 1944. Lt. j.g. Rollin M. Batten Jr. was awarded the Navy Cross for making a daring rescue in this airplane under heavy enemy fire on July 4, 1944.
Transferred from the United States Navy.
Manufacturer:
Vought-Sikorsky Aircraft Division
Date:
1937
Country of Origin:
United States of America
Dimensions:
Overall: 15ft 1 1/8in. x 33ft 9 1/2in., 4122.6lb., 36ft 1 1/16in. (460 x 1030cm, 1870kg, 1100cm)
Materials:
Wings covered with fabric aft of the main spar
Physical Description:
Two-seat monoplane, deflector plate flaps hung from the trailing edge of the wing, ailerons drooped at low airspeeds to function like extra flaps, spoilers.
• • • • •
Quoting Smithsonian National Air and Space Museum | Boeing B-29 Superfortress "Enola Gay":
Boeing's B-29 Superfortress was the most sophisticated propeller-driven bomber of World War II and the first bomber to house its crew in pressurized compartments. Although designed to fight in the European theater, the B-29 found its niche on the other side of the globe. In the Pacific, B-29s delivered a variety of aerial weapons: conventional bombs, incendiary bombs, mines, and two nuclear weapons.
On August 6, 1945, this Martin-built B-29-45-MO dropped the first atomic weapon used in combat on Hiroshima, Japan. Three days later, Bockscar (on display at the U.S. Air Force Museum near Dayton, Ohio) dropped a second atomic bomb on Nagasaki, Japan. Enola Gay flew as the advance weather reconnaissance aircraft that day. A third B-29, The Great Artiste, flew as an observation aircraft on both missions.
Transferred from the United States Air Force.
Manufacturer:
Date:
1945
Country of Origin:
United States of America
Dimensions:
Overall: 900 x 3020cm, 32580kg, 4300cm (29ft 6 5/16in. x 99ft 1in., 71825.9lb., 141ft 15/16in.)
Materials:
Polished overall aluminum finish
Physical Description:
Four-engine heavy bomber with semi-monoqoque fuselage and high-aspect ratio wings. Polished aluminum finish overall, standard late-World War II Army Air Forces insignia on wings and aft fuselage and serial number on vertical fin; 509th Composite Group markings painted in black; "Enola Gay" in black, block letters on lower left nose.
And I've always lived like this
Keeping a comfortable distance.
By the way, on Friday I was featured on the website She Posts for my Kickstarter campaign. Check it out!
More on this shot at kidona.com.
Strobist: 3 lights. Key is an Elinchrom ELC Pro HD 500 in the MiniSoft w/ silver deflector, f/5.6. Background light is another HD 500 in the beckground reflector, f/8. Kicker to the right is a Quadra A head in the PortaLight, f/5.6. White reflector under. I shot this 1/3 of a stop over, at f/5.
Triggered by Skyport.
PP in LR/PS CC 2015
© Donald J. Fadel, Jr. | kidona.com
Model: Kimberley, Miss beauty of the Netherlands 2016
MUA: Dhenia
Date: 23-12-2016
Place: Living room studio RD, Belgium
Strobist Info:
Left: Elinchrom BRX 250 in Rotalux Octagonal softbox 135cm, center 0.5m above face hight and 2m away with gold deflector
Trigger: Elinchrom EL-Skyport Transmitter Plus HS
The up Sunday 'Ulster Express' on the slow line. The ineffectiveness of the smoke deflectors is well illustrated.
Image and legend from an album of images by an unknown photographer.
I think the loco is 46230 (if not its 46250), Coronation class 'Duchess of Buccleuch', into service 1938, withdrawn 1963.
The Flickr Lounge-Words
This is the new land line we just got. It is great, it talks to us. We keep this in our home to stop the spam. Most people who are scammers won't leave their voice on an answering machine.
Hans van Eijsden Photography, The Netherlands
MUA: Martina Kató
Lens: Canon EF 85mm f/1.2L II USM on full frame.
Light: Simple setup with one Elinchrom ELB 400 + HS Head through a Deep Octa with silver deflector and inner diffuser from the front-side, light from the back is ambient light. I shot in Hi-Sync Speed with the Elinchrom Skyport HS trigger, so I could open the lens almost completely.
Postprocessing: Some local adjustment curves, BW conversion, some local cloning, grain.
Portfolio: www.hansvaneijsden.com
Facebook Page: www.facebook.com/hansvaneijsdenphotography
+++ DISCLAIMER +++
Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!
Some background:
The TIE/LN starfighter, or TIE/line starfighter, simply known as the TIE Fighter or T/F, was the standard Imperial starfighter seen in massive numbers throughout most of the Galactic Civil War and onward.
The TIE Fighter was manufactured by Sienar Fleet Systems and led to several upgraded TIE models such as TIE/sa bomber, TIE/IN interceptor, TIE/D Defender, TIE/D automated starfighter, and many more.
The original TIEs were designed to attack in large numbers, overwhelming the enemy craft. The Imperials used so many that they came to be considered symbols of the Empire and its might. They were also very cheap to produce, reflecting the Imperial philosophy of quantity over quality.
However, a disadvantage of the fighter was its lack of deflector shields. In combat, pilots had to rely on the TIE/LN's maneuverability to avoid damage. The cockpit did incorporate crash webbing, a repulsorlift antigravity field, and a high-g shock seat to help protect the pilot, however these did next to nothing to help protect against enemy blaster fire.
Due to the lack of life-support systems, each TIE pilot had a fully sealed flight suit superior to their Rebel counterparts. The absence of a hyperdrive also rendered the light fighter totally dependent on carrier ships when deployed in enemy systems. TIE/LNs also lacked landing gear, another mass-reducing measure. While the ships were structurally capable of "sitting" on their wings, they were not designed to land or disembark their pilots without special support. On Imperial ships, TIEs were launched from racks in the hangar bays.
The high success rate of more advanced Rebel starfighters against standard Imperial TIE Fighters resulted in a mounting cost of replacing destroyed fighters and their pilots. That, combined with the realization that the inclusion of a hyperdrive would allow the fleet to be more flexible, caused the Imperial Navy to rethink its doctrine of using swarms of cheap craft instead of fewer high-quality ones, leading to the introduction of the TIE Advanced x1 and its successor, the TIE Avenger. The following TIE/D Defender as well as the heavy TIE Escort Fighter (or TIE/E) were touted as the next "logical advance" of the TIE Series—representing a shift in starfighter design from previous, expendable TIE models towards fast, well armed and protected designs, capable of hyperspace travel and long-term crew teams which gained experience and capabilities over time.
The TIE/E Escort, was a high-performance TIE Series starfighter developed for the Imperial Navy by Sienar Fleet Systems and it was introduced into service shortly before the Battle of Endor. It was a much heavier counterpart to the agile and TIE/D fighter, and more of an attack ship or even a light bomber than a true dogfighter. Its role were independent long range operations, and in order to reduce the work load and boost morale a crew of two was introduced (a pilot and a dedicated weapon systems officer/WSO). The primary duty profile included attack and escort task, but also reconnoiter missions. The TIE/E shared the general layout with the contemporary TIE/D fighter, but the cockpit section as well as the central power unit were much bigger, and the ship was considerably heavier.
The crew enjoyed – compared with previous TIE fighter designs – a spacious and now fully pressurized cockpit, so that no pressurized suits had to be worn anymore. The crew members sat in tandem under a large, clear canopy. The pilot in front had a very good field of view, while the WSO sat behind him, in a higher, staggered position with only a limited field of view. Both work stations had separate entries, though, and places could not be switched in flight: the pilot mounted the cockpit through a hatch on port side, while the WSO entered the rear compartment through a roof hatch.
In a departure from the design of previous TIE models, instead of two parallel wings to either side of the pilot module, the TIE Escort had three quadanium steel solar array wings mounted symmetrically around an aft section, which contained an I-s4d solar ionization reactor to store and convert solar energy collected from the wing panels. The inclusion of a third wing provided additional solar power to increase the ship's range and the ship's energy management system was designed to allow weapons and shields to be charged with minimum loss of power to the propulsion system.
Although it was based on the standard twin ion engine design, the TIE/E’s propulsion system was upgraded to the entirely new, powerful P-sz9.8 triple ion engine. This allowed the TIE/E a maximum acceleration of 4,220 G or 21 MGLT/s and a top speed of 144 MGLT, or 1,680 km/h in an atmosphere — almost 40 percent faster than a former standard TIE Fighter. With tractor beam recharge power (see below) redirected to the engines, the top speed could be increased to 180 MGLT in a dash.
In addition to the main thrusters located in the aft section, the TIE Escort's triple wing design allowed for three arrays of maneuvering jets and it featured an advanced F-s5x flight avionics system to process the pilot's instructions. Production models received a class 2, ND9 hyperdrive motivator, modified from the version developed for the TIE Avenger. The TIE/E also carried a Sienar N-s6 Navcon navigation computer with a ten-jump memory.
Special equipment included a small tractor beam projector, originally developed for the TIE Avenger, which could be easily fitted to the voluminous TIE Escort. Models produced by Ysanne Isard's production facility regularly carried such tractor beams and the technology found other uses, such as towing other damaged starfighters until they could achieve the required velocity to enter hyperspace. The tractor beam had limited range and could only be used for a short time before stopping to recharge, but it added new tactics, too. For instance, the beam allowed the TIE/E crews to temporarily inhibit the mobility of enemy fighters, making it easier to target them with the ship's other weapon systems, or prevent enemies from clear shots.
The TIE Escort’s weapons systems were primarily designed to engage bigger ships and armored or shielded targets, like armed freighters frequently used by the Alliance. Thanks to its complex weapon and sensor suite, it could also engage multiple enemy fighters at once. The sensors also allowed an effective attack of ground targets, so that atmospheric bombing was a potential mission for the TIE/E, too.
.
The TIE Escort Fighter carried a formidable array of weaponry in two modular weapon bays that were mounted alongside the lower cabin. In standard configuration, the TIE/E had two L-s9.3 laser cannons and two NK-3 ion cannons. The laser and ion cannons could be set to fire separately or, if concentrated power was required, to fire-linked in either pairs or as a quartet.
The ship also featured two M-g-2 general-purpose warhead launchers, each of which could be equipped with a standard load of three proton torpedoes or four concussion missiles. Depending on the mission profile, the ship could be fitted with alternative warheads such as proton rockets, proton bombs, or magnetic pulse warheads.
Additionally, external stores could be carried under the fuselage, which included a conformal sensor pallet for reconnaissance missions or a cargo bay with a capacity for 500 kg (1.100 lb).
The ship's defenses were provided by a pair of forward and rear projecting Novaldex deflector shield generators—another advantage over former standard TIE models. The shields were designed to recharge more rapidly than in previous Imperial fighters and were nearly as powerful as those found on capital ships, so that the TIE/E could engage other ships head-on with a very high survivability. The fighters were not equipped with particle shields, though, relying on the reinforced titanium hull to absorb impacts from matter. Its hull and wings were among the strongest of any TIE series Starfighter yet.
The advanced starfighter attracted the attention of several other factions, and the Empire struggled to prevent the spread of the technology. The ship's high cost, together with political factors, kept it from achieving widespread use in the Empire, though, and units were assigned only to the most elite crews.
The TIE/E played a central role in the Empire's campaign against rogue Grand Admiral Demetrius Zaarin, and mixed Defender and Escort units participated in several other battles, including the Battle of Endor. The TIE Escort continued to see limited use by the Imperial Remnant up to at least 44 ABY, and was involved in numerous conflicts, including the Yuuzhan Vong War..
The kit and its assembly:
Another group build contribution, this time to the Science Fiction GB at whatifmodelers.com during summer 2017. Originally, this one started as an attempt to build a vintage MPC TIE Interceptor kit which I had bought and half-heartedly started to build probably 20 years ago. But I did not have the right mojo (probably, The Force was not strong enough…?), so the kit ended up in a dark corner and some parts were donated to other projects.
The sun collectors were still intact, though, and in the meantime I had the idea of reviving the kit’s remains, and convert it into (what I thought was) a fictional TIE Fighter variant with three solar panels. For this plan I got myself another TIE Interceptor kit, and stashed it away, too. Mojo was still missing, though.
Well, then came the SF GB and I took it as an occasion to finally tackle the build. But when I prepared for the build I found out that my intended design (over the years) more or less actually existed in the Star Wars universe: the TIE/D Defender! I could have built it with the parts and hand and some improvisation, but the design similarity bugged me. Well, instead of a poor copy of something that was more or less clearly defined, I rather decided to create something more individual, yet plausible, from the parts at hand.
The model was to stay a TIE design, though, in order to use as much donor material from the MPC kits as possible. Doing some legwork, I settled for a heavy fighter – bigger than the TIE Interceptor and the TIE/D fighter, a two-seater.
Working out the basic concept and layout took some time and evolved gradually. The creative spark for the TIE/E eventually came through a Revell “Obi Wan’s Jedi Starfighter” snap fit kit in my pile – actually a prize from a former GB participation at phoxim.de (Thanks a lot, Wolfgang!), and rather a toy than a true model kit.
The Jedi Fighter was in so far handy as it carries some TIE Fighter design traits, like the pilot capsule and the characteristic spider web windscreen. Anyway, it’s 1:32, much bigger than the TIE Interceptor’s roundabout 1:50 scale – but knowing that I’d never build the Jedi Starfighter OOB I used it as a donor bank, and from this starting point things started to evolve gradually.
Work started with the cockpit section, taken from the Jedi Starfighter kit. The two TIE Interceptor cockpit tubs were then mounted inside, staggered, and the gaps to the walls filled with putty. A pretty messy task, and once the shapes had been carved out some triangular tiles were added to the surfaces – a detail I found depicted in SW screenshots and some TIE Fighter models.
Another issue became the crew – even though I had two MPC TIE Interceptors and, theorectically, two pilot figures, only one of them could be found and the second crewman had to be improvised. I normally do not build 1:48 scale things, but I was lucky (and happy) to find an SF driver figure, left over from a small Dougram hoovercraft kit (from Takara, as a Revell “Robotech” reboxing). This driver is a tad bigger than the 1:50 TIE pilot, but I went with it because I did not want to invest money and time in alternatives. In order to justify the size difference I decided to paint the Dougram driver as a Chiss, based on the expanded SW universe (with blue skin and hair, and glowing red eyes). Not certain if this makes sense during the Battle of Endor timeframe, but it adds some color to the project – and the cockpit would not be visible in much detail since it would be finished fully closed.
Reason behind the closed canopy is basically the poor fit of the clear part. OOB, this is intended as an action toy – but also the canopy’s considerable size in 1:50 would prevent its original opening mechanism.
Additional braces on the rel. large window panels were created with self-adhesive tape and later painted over.
The rear fuselage section and the solar panel pylons were scratched. The reactor behind the cockpit section is actually a plastic adapter for water hoses, found in a local DIY market. It was slightly modified, attached to the cockpit “egg” and both parts blended with putty. The tail opening was closed with a hatch from the OOB TIE Interceptor – an incidental but perfect match in size and style.
The three pylons are also lucky finds: actually, these are SF wargaming/tabletop props and would normally be low walls or barriers, made from resin. For my build, they were more or less halved and trimmed. Tilted by 90°, they are attached to the hull with iron wire stabilizers, and later blended to the hull with putty, too.
Once the cockpit was done, things moved more swiftly. The surface of the hull was decorated with many small bits and pieces, including thin styrene sheet and profiles, steel and iron wire in various strengths, and there are even 1:72 tank tracks hidden somewhere, as well as protective caps from syringes (main guns and under the rear fuselage). It’s amazing how much stuff you can add to such a model – but IMHO it’s vital in order to create some structure and to emulate the (early) Star Wars look.
Painting and markings:
The less spectacular part of the project, even though still a lot of work because of the sheer size of the model’s surface. Since the whole thing is fictional, I tried to stay true to the Imperial designs from Episode IV-VI and gave the TIE/E a simple, all-light grey livery. All basic painting was done with rattle cans.
Work started with a basic coat of grey primer. On top of that, an initial coat of RAL 7036 Platingrau was added, esp. to the lower surfaces and recesses, for a rough shading effect. Then, the actual overall tone, RAL 7047, called “Telegrau 4”, one of Deutsche Telekom’s corporate tones, was added - mostly sprayed from abone and the sides onto the model. Fuselage and panels were painted separately, overall assembly was one of the final steps.
The solar panels were to stand out from the grey rest of the model, and I painted them with Revell Acrylic “Iron Metallic” (91) first, and later applied a rather rich wash with black ink , making sure the color settled well into the many small cells. The effect is pretty good, and the contrast was slightly enhanced through a dry-brushing treatment.
Only a few legible stencils were added all around the hull (most from the scrap box or from mecha sheets), the Galactic Empire Seal were inkjet-printed at home, as well as some tactical markings on the flanks, puzzled together from single digits in "Aurebash", one of the Imperial SW languages/fonts.
For some variety and color highlights, dozens of small, round and colorful markings were die-punched from silver, yellow, orange, red and blue decal sheet and were placed all over the hull - together with the large panels they blur into the the overall appearance, though. The hatches received thin red linings, also made from generic decals strips.
The cockpit interior was a bit challenging, though. Good TIE Fighter cockpit interior pictures are hard to find, but they suggest a dark grey tone. More confusingly, the MPC instructions call for a “Dark Green” cockpit? Well, I did not like the all-grey option, since the spaceship is already monochrome grey on the outside.
As a compromise I eventually used Tamiya XF-65 "Field Grey". The interior recieved a black ink in and dry-brushing treatment, and some instruments ansd screens were created with black decal material and glossy black paint; some neon paint was used for sci-fi-esque conmtraol lamps everywhere - I did not pay too much intention on the interior, since the cockpit would stay closed, and the thick clear material blurs everything inside.
Following this rationale, the crew was also painted in arather minimal fashion - both wear a dark grey uniform, only the Chiss pilot stands aout with his light blue skin and the flourescent red eyes.
After an overall black ink wash the model received a dry brusing treatment with FS 36492 and FS 36495, for a weathered and battle-worn look. After all, the "Vehement" would not survive the Ballte of Endor, but who knows what became of TIE/E "801"'s mixed crew...?
Finally, the kit was sealed with matt acrylic varnish, and some final cosmetic corrections made.
The display is a DIY creation, too, made from a 6x6" piece of wood, it's edges covered with edgebonder, a steel wire as holder, and finally the display was paited with semi-matt black acrylic paint from the rattle can.
A complex build, and the TIE/E more or less evolved along the way, with only the overall layout in mind. Work took a month, but I think it was worth the effort. This fantasy creation looks pretty plausible and blends well into the vast canonical TIE Fighter family - and I am happy that I finally could finish this mummy project, including the surplus Jedi Starfighter kit which now also find a very good use!
An epic one, and far outside my standard comfort zone. But a wothwhile build!
Model: Biccello
Lens: Sigma 2,8 / 50 mm macro EX DG
Strobist Info:
2 x Yongnuo YN-560iii 1/2 power towards background
Jinbei DM-5 @ 1/8 power camera left in 60 x 60 cm softbox with grid
110 cm black deflector camera right
+++ DISCLAIMER +++
Nothing you see here is real, even though the conversion or the presented background story might be based historical facts. BEWARE!
Some background:
The TIE/LN starfighter, or TIE/line starfighter, simply known as the TIE Fighter or T/F, was the standard Imperial starfighter seen in massive numbers throughout most of the Galactic Civil War and onward.
The TIE Fighter was manufactured by Sienar Fleet Systems and led to several upgraded TIE models such as TIE/sa bomber, TIE/IN interceptor, TIE/D Defender, TIE/D automated starfighter, and many more.
The original TIEs were designed to attack in large numbers, overwhelming the enemy craft. The Imperials used so many that they came to be considered symbols of the Empire and its might. They were also very cheap to produce, reflecting the Imperial philosophy of quantity over quality.
However, a disadvantage of the fighter was its lack of deflector shields. In combat, pilots had to rely on the TIE/LN's maneuverability to avoid damage. The cockpit did incorporate crash webbing, a repulsorlift antigravity field, and a high-g shock seat to help protect the pilot, however these did next to nothing to help protect against enemy blaster fire.
Due to the lack of life-support systems, each TIE pilot had a fully sealed flight suit superior to their Rebel counterparts. The absence of a hyperdrive also rendered the light fighter totally dependent on carrier ships when deployed in enemy systems. TIE/LNs also lacked landing gear, another mass-reducing measure. While the ships were structurally capable of "sitting" on their wings, they were not designed to land or disembark their pilots without special support. On Imperial ships, TIEs were launched from racks in the hangar bays.
The high success rate of more advanced Rebel starfighters against standard Imperial TIE Fighters resulted in a mounting cost of replacing destroyed fighters and their pilots. That, combined with the realization that the inclusion of a hyperdrive would allow the fleet to be more flexible, caused the Imperial Navy to rethink its doctrine of using swarms of cheap craft instead of fewer high-quality ones, leading to the introduction of the TIE Advanced x1 and its successor, the TIE Avenger. The following TIE/D Defender as well as the heavy TIE Escort Fighter (or TIE/E) were touted as the next "logical advance" of the TIE Series—representing a shift in starfighter design from previous, expendable TIE models towards fast, well armed and protected designs, capable of hyperspace travel and long-term crew teams which gained experience and capabilities over time.
The TIE/E Escort, was a high-performance TIE Series starfighter developed for the Imperial Navy by Sienar Fleet Systems and it was introduced into service shortly before the Battle of Endor. It was a much heavier counterpart to the agile and TIE/D fighter, and more of an attack ship or even a light bomber than a true dogfighter. Its role were independent long range operations, and in order to reduce the work load and boost morale a crew of two was introduced (a pilot and a dedicated weapon systems officer/WSO). The primary duty profile included attack and escort task, but also reconnoiter missions. The TIE/E shared the general layout with the contemporary TIE/D fighter, but the cockpit section as well as the central power unit were much bigger, and the ship was considerably heavier.
The crew enjoyed – compared with previous TIE fighter designs – a spacious and now fully pressurized cockpit, so that no pressurized suits had to be worn anymore. The crew members sat in tandem under a large, clear canopy. The pilot in front had a very good field of view, while the WSO sat behind him, in a higher, staggered position with only a limited field of view. Both work stations had separate entries, though, and places could not be switched in flight: the pilot mounted the cockpit through a hatch on port side, while the WSO entered the rear compartment through a roof hatch.
In a departure from the design of previous TIE models, instead of two parallel wings to either side of the pilot module, the TIE Escort had three quadanium steel solar array wings mounted symmetrically around an aft section, which contained an I-s4d solar ionization reactor to store and convert solar energy collected from the wing panels. The inclusion of a third wing provided additional solar power to increase the ship's range and the ship's energy management system was designed to allow weapons and shields to be charged with minimum loss of power to the propulsion system.
Although it was based on the standard twin ion engine design, the TIE/E’s propulsion system was upgraded to the entirely new, powerful P-sz9.8 triple ion engine. This allowed the TIE/E a maximum acceleration of 4,220 G or 21 MGLT/s and a top speed of 144 MGLT, or 1,680 km/h in an atmosphere — almost 40 percent faster than a former standard TIE Fighter. With tractor beam recharge power (see below) redirected to the engines, the top speed could be increased to 180 MGLT in a dash.
In addition to the main thrusters located in the aft section, the TIE Escort's triple wing design allowed for three arrays of maneuvering jets and it featured an advanced F-s5x flight avionics system to process the pilot's instructions. Production models received a class 2, ND9 hyperdrive motivator, modified from the version developed for the TIE Avenger. The TIE/E also carried a Sienar N-s6 Navcon navigation computer with a ten-jump memory.
Special equipment included a small tractor beam projector, originally developed for the TIE Avenger, which could be easily fitted to the voluminous TIE Escort. Models produced by Ysanne Isard's production facility regularly carried such tractor beams and the technology found other uses, such as towing other damaged starfighters until they could achieve the required velocity to enter hyperspace. The tractor beam had limited range and could only be used for a short time before stopping to recharge, but it added new tactics, too. For instance, the beam allowed the TIE/E crews to temporarily inhibit the mobility of enemy fighters, making it easier to target them with the ship's other weapon systems, or prevent enemies from clear shots.
The TIE Escort’s weapons systems were primarily designed to engage bigger ships and armored or shielded targets, like armed freighters frequently used by the Alliance. Thanks to its complex weapon and sensor suite, it could also engage multiple enemy fighters at once. The sensors also allowed an effective attack of ground targets, so that atmospheric bombing was a potential mission for the TIE/E, too.
.
The TIE Escort Fighter carried a formidable array of weaponry in two modular weapon bays that were mounted alongside the lower cabin. In standard configuration, the TIE/E had two L-s9.3 laser cannons and two NK-3 ion cannons. The laser and ion cannons could be set to fire separately or, if concentrated power was required, to fire-linked in either pairs or as a quartet.
The ship also featured two M-g-2 general-purpose warhead launchers, each of which could be equipped with a standard load of three proton torpedoes or four concussion missiles. Depending on the mission profile, the ship could be fitted with alternative warheads such as proton rockets, proton bombs, or magnetic pulse warheads.
Additionally, external stores could be carried under the fuselage, which included a conformal sensor pallet for reconnaissance missions or a cargo bay with a capacity for 500 kg (1.100 lb).
The ship's defenses were provided by a pair of forward and rear projecting Novaldex deflector shield generators—another advantage over former standard TIE models. The shields were designed to recharge more rapidly than in previous Imperial fighters and were nearly as powerful as those found on capital ships, so that the TIE/E could engage other ships head-on with a very high survivability. The fighters were not equipped with particle shields, though, relying on the reinforced titanium hull to absorb impacts from matter. Its hull and wings were among the strongest of any TIE series Starfighter yet.
The advanced starfighter attracted the attention of several other factions, and the Empire struggled to prevent the spread of the technology. The ship's high cost, together with political factors, kept it from achieving widespread use in the Empire, though, and units were assigned only to the most elite crews.
The TIE/E played a central role in the Empire's campaign against rogue Grand Admiral Demetrius Zaarin, and mixed Defender and Escort units participated in several other battles, including the Battle of Endor. The TIE Escort continued to see limited use by the Imperial Remnant up to at least 44 ABY, and was involved in numerous conflicts, including the Yuuzhan Vong War..
The kit and its assembly:
Another group build contribution, this time to the Science Fiction GB at whatifmodelers.com during summer 2017. Originally, this one started as an attempt to build a vintage MPC TIE Interceptor kit which I had bought and half-heartedly started to build probably 20 years ago. But I did not have the right mojo (probably, The Force was not strong enough…?), so the kit ended up in a dark corner and some parts were donated to other projects.
The sun collectors were still intact, though, and in the meantime I had the idea of reviving the kit’s remains, and convert it into (what I thought was) a fictional TIE Fighter variant with three solar panels. For this plan I got myself another TIE Interceptor kit, and stashed it away, too. Mojo was still missing, though.
Well, then came the SF GB and I took it as an occasion to finally tackle the build. But when I prepared for the build I found out that my intended design (over the years) more or less actually existed in the Star Wars universe: the TIE/D Defender! I could have built it with the parts and hand and some improvisation, but the design similarity bugged me. Well, instead of a poor copy of something that was more or less clearly defined, I rather decided to create something more individual, yet plausible, from the parts at hand.
The model was to stay a TIE design, though, in order to use as much donor material from the MPC kits as possible. Doing some legwork, I settled for a heavy fighter – bigger than the TIE Interceptor and the TIE/D fighter, a two-seater.
Working out the basic concept and layout took some time and evolved gradually. The creative spark for the TIE/E eventually came through a Revell “Obi Wan’s Jedi Starfighter” snap fit kit in my pile – actually a prize from a former GB participation at phoxim.de (Thanks a lot, Wolfgang!), and rather a toy than a true model kit.
The Jedi Fighter was in so far handy as it carries some TIE Fighter design traits, like the pilot capsule and the characteristic spider web windscreen. Anyway, it’s 1:32, much bigger than the TIE Interceptor’s roundabout 1:50 scale – but knowing that I’d never build the Jedi Starfighter OOB I used it as a donor bank, and from this starting point things started to evolve gradually.
Work started with the cockpit section, taken from the Jedi Starfighter kit. The two TIE Interceptor cockpit tubs were then mounted inside, staggered, and the gaps to the walls filled with putty. A pretty messy task, and once the shapes had been carved out some triangular tiles were added to the surfaces – a detail I found depicted in SW screenshots and some TIE Fighter models.
Another issue became the crew – even though I had two MPC TIE Interceptors and, theorectically, two pilot figures, only one of them could be found and the second crewman had to be improvised. I normally do not build 1:48 scale things, but I was lucky (and happy) to find an SF driver figure, left over from a small Dougram hoovercraft kit (from Takara, as a Revell “Robotech” reboxing). This driver is a tad bigger than the 1:50 TIE pilot, but I went with it because I did not want to invest money and time in alternatives. In order to justify the size difference I decided to paint the Dougram driver as a Chiss, based on the expanded SW universe (with blue skin and hair, and glowing red eyes). Not certain if this makes sense during the Battle of Endor timeframe, but it adds some color to the project – and the cockpit would not be visible in much detail since it would be finished fully closed.
Reason behind the closed canopy is basically the poor fit of the clear part. OOB, this is intended as an action toy – but also the canopy’s considerable size in 1:50 would prevent its original opening mechanism.
Additional braces on the rel. large window panels were created with self-adhesive tape and later painted over.
The rear fuselage section and the solar panel pylons were scratched. The reactor behind the cockpit section is actually a plastic adapter for water hoses, found in a local DIY market. It was slightly modified, attached to the cockpit “egg” and both parts blended with putty. The tail opening was closed with a hatch from the OOB TIE Interceptor – an incidental but perfect match in size and style.
The three pylons are also lucky finds: actually, these are SF wargaming/tabletop props and would normally be low walls or barriers, made from resin. For my build, they were more or less halved and trimmed. Tilted by 90°, they are attached to the hull with iron wire stabilizers, and later blended to the hull with putty, too.
Once the cockpit was done, things moved more swiftly. The surface of the hull was decorated with many small bits and pieces, including thin styrene sheet and profiles, steel and iron wire in various strengths, and there are even 1:72 tank tracks hidden somewhere, as well as protective caps from syringes (main guns and under the rear fuselage). It’s amazing how much stuff you can add to such a model – but IMHO it’s vital in order to create some structure and to emulate the (early) Star Wars look.
Painting and markings:
The less spectacular part of the project, even though still a lot of work because of the sheer size of the model’s surface. Since the whole thing is fictional, I tried to stay true to the Imperial designs from Episode IV-VI and gave the TIE/E a simple, all-light grey livery. All basic painting was done with rattle cans.
Work started with a basic coat of grey primer. On top of that, an initial coat of RAL 7036 Platingrau was added, esp. to the lower surfaces and recesses, for a rough shading effect. Then, the actual overall tone, RAL 7047, called “Telegrau 4”, one of Deutsche Telekom’s corporate tones, was added - mostly sprayed from abone and the sides onto the model. Fuselage and panels were painted separately, overall assembly was one of the final steps.
The solar panels were to stand out from the grey rest of the model, and I painted them with Revell Acrylic “Iron Metallic” (91) first, and later applied a rather rich wash with black ink , making sure the color settled well into the many small cells. The effect is pretty good, and the contrast was slightly enhanced through a dry-brushing treatment.
Only a few legible stencils were added all around the hull (most from the scrap box or from mecha sheets), the Galactic Empire Seal were inkjet-printed at home, as well as some tactical markings on the flanks, puzzled together from single digits in "Aurebash", one of the Imperial SW languages/fonts.
For some variety and color highlights, dozens of small, round and colorful markings were die-punched from silver, yellow, orange, red and blue decal sheet and were placed all over the hull - together with the large panels they blur into the the overall appearance, though. The hatches received thin red linings, also made from generic decals strips.
The cockpit interior was a bit challenging, though. Good TIE Fighter cockpit interior pictures are hard to find, but they suggest a dark grey tone. More confusingly, the MPC instructions call for a “Dark Green” cockpit? Well, I did not like the all-grey option, since the spaceship is already monochrome grey on the outside.
As a compromise I eventually used Tamiya XF-65 "Field Grey". The interior recieved a black ink in and dry-brushing treatment, and some instruments ansd screens were created with black decal material and glossy black paint; some neon paint was used for sci-fi-esque conmtraol lamps everywhere - I did not pay too much intention on the interior, since the cockpit would stay closed, and the thick clear material blurs everything inside.
Following this rationale, the crew was also painted in arather minimal fashion - both wear a dark grey uniform, only the Chiss pilot stands aout with his light blue skin and the flourescent red eyes.
After an overall black ink wash the model received a dry brusing treatment with FS 36492 and FS 36495, for a weathered and battle-worn look. After all, the "Vehement" would not survive the Ballte of Endor, but who knows what became of TIE/E "801"'s mixed crew...?
Finally, the kit was sealed with matt acrylic varnish, and some final cosmetic corrections made.
The display is a DIY creation, too, made from a 6x6" piece of wood, it's edges covered with edgebonder, a steel wire as holder, and finally the display was paited with semi-matt black acrylic paint from the rattle can.
A complex build, and the TIE/E more or less evolved along the way, with only the overall layout in mind. Work took a month, but I think it was worth the effort. This fantasy creation looks pretty plausible and blends well into the vast canonical TIE Fighter family - and I am happy that I finally could finish this mummy project, including the surplus Jedi Starfighter kit which now also find a very good use!
An epic one, and far outside my standard comfort zone. But a wothwhile build!
Cheteshwar Pujara deflects a ball from Ben Stokes fine for 4 on the first morning of the 3rd test. Pujara didn't stick around too long before foolishly hooking a ball from Chris Woakes to get caught at backward square leg just before the lunch break.
In the background the smart New Stand has replaced the old Parr Stand and West Wing Stand as part of Trent Bridge's impressive redevelopment.
The Postcard
A postally unused carte postale published by N.D. The card has a divided back.
Medieval craftsmen must have realised when they were carefully carving the chimères that few people would ever get close enough to them to appreciate their skill and artistry.
Let's hope that the chimères survived the devastating fire in 2019.
The Notre-Dame Fire
On the 15th. April 2019, fire broke out in the attic beneath the cathedral's roof at 18:18. At 18:20 the fire alarm sounded and guards evacuated the cathedral. A guard was sent to investigate, but to the wrong location – the attic of the adjoining sacristy – where he found no fire. About fifteen minutes later the error was discovered, but by the time guards had climbed the three hundred steps to the cathedral attic, the fire was well advanced.
The alarm system was not designed to automatically notify the fire brigade, which was summoned at 18:51 after the guards had returned. Firefighters arrived within ten minutes.
Fighting the Notre-Dame Fire
More than 400 firefighters were engaged. A hundred government employees along with police and municipal workers moved precious artefacts to safety via a human chain.
The fire was primarily fought from inside the structure, which was more dangerous for personnel, but reduced potential damage to the cathedral - applying water from outside risked deflecting flames and hot gases (at temperatures up to 800 °C) inwards. Deluge guns were used at lower-than-usual pressures to minimise damage to the cathedral and its contents. Water was supplied by pump-boat from the Seine.
Aerial firefighting was not used because water dropped from heights could have caused structural damage, and heated stone can crack if suddenly cooled. Helicopters were also not used because of dangerous updrafts, but drones were used for visual and thermal imaging, and robots for visual imaging and directing water streams. Molten lead falling from the roof posed a special hazard for firefighters.
By 18:52, smoke was visible from the outside; flames appeared within the next ten minutes. The spire of the cathedral collapsed at 19:50, creating a draft that slammed all the doors and sent a fireball through the attic. Firefighters then retreated from within the attic.
Shortly before the spire fell, the fire had spread to the wooden framework inside the north tower, which supported eight very large bells. Had the bells fallen, it was thought that the damage done as they fell could have collapsed the towers, and with them the entire cathedral.
At 20:30, firefighters abandoned attempts to extinguish the roof and concentrated on saving the towers, fighting from within and between the towers. By 21:45 the fire was under control.
Adjacent apartment buildings were evacuated due to concern about possible collapse, but on the 19th. April the fire brigade ruled out that risk. One firefighter and two police officers were injured.
Damage to Notre-Dame
Most of the wood/metal roof and the spire of the cathedral was destroyed, with about one third of the roof remaining. The remnants of the roof and spire fell atop the stone vault underneath, which forms the ceiling of the cathedral's interior. Some sections of this vaulting collapsed in turn, allowing debris from the burning roof to fall to the marble floor below, but most sections remained intact due to the use of rib vaulting, greatly reducing damage to the cathedral's interior and objects within.
The cathedral contained a large number of artworks, religious relics, and other irreplaceable treasures, including a crown of thorns said to be the one Jesus wore at his crucifixion. Other items were a purported piece of the cross on which Jesus was crucified, the Tunic of St. Louis, a pipe organ by Aristide Cavaillé-Coll, and the 14th.-century Virgin of Paris statue.
Some artwork had been removed in preparation for the renovations, and most of the cathedral's sacred relics were held in the adjoining sacristy, which the fire did not reach; all the cathedral's relics survived. Many valuables that were not removed also survived.
Lead joints in some of the 19th.-century stained-glass windows melted, but the three major rose windows, dating back to the 13th. century, were undamaged. Several pews were destroyed, and the vaulted arches were blackened by smoke, though the cathedral's main cross and altar survived, along with the statues surrounding it.
Some paintings, apparently only smoke-damaged, are expected to be transported to the Louvre for restoration. The rooster-shaped reliquary atop the spire was found damaged but intact among the debris. The three pipe organs were not significantly damaged. The largest of the cathedral's bells, the bourdon, was also not damaged. The liturgical treasury of the cathedral and the "Grands Mays" paintings were moved to safety.
Environmental Damage
Airparif said that winds rapidly dispersed the smoke, carrying it away aloft along the Seine corridor. It did not find elevated levels of particulate air pollution at monitoring stations nearby. The Paris police stated that there was no danger from breathing the air around the fire.
The burned-down roof had been covered with over 400 metric tons of lead. Settling dust substantially raised surface lead levels in some places nearby, notably the cordoned-off area and places left open during the fire. Wet cleaning for surfaces and blood tests for children and pregnant women were recommended in the immediate area.
People working on the cathedral after the fire did not initially take the lead precautions required for their own protection; materials leaving the site were decontaminated, but some clothing was not, and some precautions were not correctly followed; as a result, the worksite failed some inspections and was temporarily shut down.
There was also more widespread contamination; testing, clean-up, and public health advisories were delayed for months, and the neighbourhood was not decontaminated for four months, prompting widespread criticism.
Reactions to the Notre-Dame Fire
President of France Emmanuel Macron, postponing a speech to address the Yellow Vests Movement planned for that evening, went to Notre-Dame and gave a brief address there. Numerous world religious and government leaders extended condolences.
Through the night of the fire and into the next day, people gathered along the Seine to hold vigils, sing and pray.
White tarpaulins over metal beams were quickly rigged to protect the interior from the elements. Nettings protect the de-stabilised exterior.
The following Sunday at Saint-Eustache Church, the Archbishop of Paris, Michel Aupetit, honoured the firefighters with the presentation of a book of scriptures saved from the fire.
Investigation Into The Notre-Dame Fire
On the 16th. April, the Paris prosecutor said that there was no evidence of a deliberate act.
The fire has been compared to the similar 1992 Windsor Castle fire and the Uppark fire, among others, and has raised old questions about the safety of similar structures and the techniques used to restore them. Renovation works increase the risk of fire, and a police source reported that they are looking into whether such work had caused this incident.
The renovations presented a fire risk from sparks, short-circuits, and heat from welding (roof repairs involved cutting, and welding lead sheets resting on timber). Normally, no electrical installations were allowed in the roof space due to the extreme fire risk.
The roof framing was of very dry timber, often powdery with age. After the fire, the architect responsible for fire safety at the cathedral acknowledged that the rate at which fire might spread had been underestimated, and experts said it was well known that a fire in the roof would be almost impossible to control.
Of the firms working on the restoration, a Europe Echafaudage team was the only one working there on the day of the fire; the company said no soldering or welding was underway before the fire. The scaffolding was receiving electrical supply for temporary elevators and lighting.
The roofers, Le Bras Frères, said it had followed procedure, and that none of its personnel were on site when the fire broke out. Time-lapse images taken by a camera installed by them showed smoke first rising from the base of the spire.
On the 25th. April, the structure was considered safe enough for investigators to enter. They unofficially stated that they were considering theories involving malfunction of electric bell-ringing apparatus, and cigarette ends discovered on the renovation scaffolding.
Le Bras Frères confirmed its workers had smoked cigarettes, contrary to regulations, but denied that a cigarette butt could have started the fire. The Paris prosecutor's office announced on the 26th. June that no evidence had been found to suggest a criminal motive.
The security employee monitoring the alarm system was new on the job, and was on a second eight-hour shift that day because his relief had not arrived. Additionally, the fire security system used confusing terminology in its referencing parts of the cathedral, which contributed to the initial confusion as to the location of the fire.
As of September, five months after the fire, investigators thought the cause of the fire was more likely an electrical fault than a cigarette. Determining the exact place in which the fire started was expected to take a great deal more time and work. By the 15th. April 2020, investigators stated:
"We believe the fire to have been
started by either a cigarette or a
short circuit in the electrical system".
Reconstruction of Notre-Dame Cathedral
On the night of the fire Macron said that the cathedral, which is owned by the state, would be rebuilt, and launched an international fundraising campaign. France's cathedrals have been owned by the state since 1905, and are not privately insured.
The heritage conservation organisation Fondation du Patrimoine estimated the damage in the hundreds of millions of euros, but losses from the fire are not expected to substantially impact the private insurance industry.
European art insurers stated that the cost would be similar to ongoing renovations at the Palace of Westminster in London, which currently is estimated to be around €7 billion.
This cost does not include damage to any of the artwork or artefacts within the cathedral. Any pieces on loan from other museums would have been insured, but the works owned by the cathedral would not have been insurable.
While Macron hoped the cathedral could be restored in time for the 2024 Paris Summer Olympics, architects expect the work could take from twenty to forty years, as any new structure would need to balance restoring the look of the original building, using wood and stone sourced from the same regions used in the original construction, with the structural reinforcement required for preventing a similar disaster in the future.
There is discussion of whether to reconstruct the cathedral in modified form. Rebuilding the roof with titanium sheets and steel trusses has been suggested; other options include rebuilding in the original lead and wood, or rebuilding with modern materials not visible from the outside (like the reinforced concrete trusses at Reims Cathedral).
Another option would be to use a combination of restored old elements and newly designed ones. Chartres Cathedral was rebuilt with wrought iron trusses and copper sheeting after an 1836 fire.
French prime minister Édouard Philippe announced an architectural design competition for a new spire that would be:
"Adapted to the techniques
and the challenges of our era."
The spire replacement project has gathered a variety of designs and some controversy, particularly its legal exemption from environmental and heritage rules. After the design competition was announced, the French senate amended the government's restoration bill to require the roof to be restored to how it was before the fire.
On the 16th. July, 95 days after the fire, the law that will govern the restoration of the cathedral was finally approved by the French parliament. It recognises its UNESCO World Heritage Site status and the need to respect existing international charters and practices, to:
"Preserve the historic, artistic and architectural
history of the monument, and to limit any
derogations to the existing heritage, planning,
environmental and construction codes to a
minimum".
On the 15th. April 2020, Germany offered to restore some of the large clerestory windows located far above eye level with three expert tradesmen who specialize in rebuilding cathedrals. Monika Grütters, Germany's Commissioner for Culture was quoted as saying that her country would shoulder the costs.
As of the 30th. November all of the tangled scaffolding was removed from the spire area, and was therefore no longer a threat to the building.
The world will now have to wait for Notre-Dame de Paris to be restored to its former magnificence.
Copyright © John G. Lidstone, all rights reserved.
It is an offence under law if you remove my copyright marking, or post this image anywhere else without my express written permission.
A close-up view of the flame trench and flame deflector at Launch Pad 39B at NASA's Kennedy Space Center in Florida on July 26, 2018. The launch pad has undergone upgrades and modifications to accommodate NASA's Space Launch System and Orion spacecraft for Exploration Mission-1 and other deep space missions. New heat-resistant bricks have been installed on the walls and a new flame deflector is in place. The clean pad concept is designed to support NASA and commercial launch providers at the multi-user spaceport. Photo Credit: NASA/Cory Huston
Hard iPad, iPhone and iPod Touch cases of this image available to buy online direct from my redbubble site.
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The locomotive built to lead a nation at war.
A build long in the making...for well over a year and spanning many life changes that attempted to derail this project, Union Pacific #844 finally emerges from my workshop.
UP #844 has captured my imagination since childhood, appearing in several mini-series, TV shows and ads from the early 1990’s. With a sleek body, brutish flat face, high stepping drivers and enormous smoke deflectors, it embodies every definition of monstrous speed and power.
Manufactured by the American Locomotive Company and delivered to UP in 1944 to accommodate both wartime traffic and the projected increase in passenger service after the war, #835-844 were built upon the nearly perfected FEF-1 and FEF-2 series of locomotives delivered between 1937-1939. The entire FEF-3 series proved to be a masterpiece of design and was continuously called upon to lead top priority freight and passenger service.
#844 was delivered on a cold December day in 1944 as the final steam locomotive ever received by UP. Truly an unsleeping giant, #844 is the only steam locomotive of any American Class 1 railroad that has never been struck from the roster. Throughout her revenue career, she headed express freight, fast mail, and the most prestigious passenger trains of the central high plains and mountainous west – The Overland Limited, Los Angeles Limited, Portland Rose, and Pony Express.
Fitted with 80-inch drivers and a 300 psi operating boiler pressure, #844 generates 63,800 lbs of tractive effort. She was designed to comfortably haul a 1,000-ton train at 100 mph and would regularly run at 120 mph.
Significant research was put into this model. Before even laying out the frame I had compiled an 80-year timeline documenting every minor, and major, upgrade, repainting, and alteration. I had one specific goal in mind: to capture her high-speed passenger service essence. As such, I have modeled her exactly as she would have appeared in April of 1949 – oil burning, with a Sellers exhaust steam injector and painted in the famous two-tone gray of Armour Yellow and Harbor Mist Gray. I am proud to say that this is one of the most accurate representations of a two-tone gray FEF-3 in the modeling world.
This model is 8-wide and precisely 1:48 scale. #844 represents the absolute apex of duel-service steam and I want this model to represent nothing less. It is powered by two L power function motors in a 1:1 gear ratio so that she has both high tractive effort and can travel at high speed. The tender is fitted with a power functions control switch and two V2 IR receivers, one dedicated to each motor, powered by a 20c 7.4V Turnigy battery.
I design all my models with usability in mind. That being said, due to the #844’s unavoidable long legs, the locomotive can technically snake its way through R56 curves but is much happier with R120. I will pride myself in saying that the tender can navigate R40 due to my engineering of a unique design to conquer the flexibility challenges that plagues centipede tenders.
Custom wheels and drivers were sourced from Brick Train Depot and Breckland Bricks while the Walschaerts valve gear is from Trained Bricks. I want to particularly thank Monty’s Trains who designed and printed all stickers you see on this model. Monty also provided the technical experience that allowed me to upgrade from a standard Lego battery pack to the vastly superior LiPo world.
I strive to make my models both detailed and accessible. As such, instructions ARE available for this model in both two-tone gray and black (accurately dated to July 1954). Additionally, both liveries come with simple and complex valve gear instructions.
Today known as The Living Legend, UP #844 is the last of a great breed and represents the absolute apex of duel-service steam as one of the most powerful, prestigious and well-engineered Northern type locomotives of all time.
I feel extremely grateful to the Union Pacific Steam Team for ensuring that, through unquantifiable amounts of continuous labor, #844’s clock is not approaching twilight, but held at dawn. She is poised to travel the high iron for time eternal, forever roaring across the heartland plains and into the rising sun.
Thank you everyone for taking time to read this post, I greatly appreciate your questions, comments and praise. This model represents the end of a personal era, and I appreciate all the encouragement and support that I received from the community along the way. Railroading and Lego modeling are my passions, and I am happy to be part of these growing communities.
Cort
This is the flame deflector below the pair of Gemini engines splitting the blast sideways to a pair of exhaust ducts, all deep underground in this Titan II ICBM missile silo.
Construction is complete on the main flame deflector in the flame trench at Launch Complex 39B at NASA's Kennedy Space Center in Florida. The flame deflector will safely deflect the plume exhaust from NASA's Space Launch System rocket during launch. It will divert the rocket's exhaust, pressure and intense heat to the north at liftoff. In view is the south side of the main flame deflector. The Exploration Ground Systems Program at Kennedy is refurbishing the pad to support the launch of the SLS rocket and Orion on Exploration Mission-1, and helping to transform the space center into a multi-user spaceport. Photo credit: NASA/Kim Shiflett
+++ DISCLAIMER +++
Nothing you see here is real, even though the conversion or the presented background story might be based on historical facts. BEWARE!
Some background:
The Sd.Kfz. 141/4 Panzerkampfwagen III, commonly known as the Panzer III, was a medium tank developed in the 1930s by Germany and was used extensively in World War II. It was intended to fight other armored fighting vehicles and serve alongside and support the similar Panzer IV which was originally designed for infantry support. However, as the Germans faced the formidable T-34, more powerful anti-tank guns were needed, and since the Panzer IV had more development potential with a larger turret ring, the latter was redesigned to mount the long-barrelled 7.5 cm KwK 40 gun and the Panzer III effectively swapped roles with the Panzer IV. Later, the Panzer V “Panther” took over the role of the standard MBT. Production of the Panzer III as battle tank ceased in 1943. Nevertheless, the Panzer III's capable chassis was used for a range of specialized vehicles.
The Panzer III was by far the most widely used of all Axis chassis. Besides the StuG, or Sturmgeschütz III, family (9500 built), suspensions, tracks and engine were used in almost a dozen specially modified vehicles. These included the Tauchpanzer III, an improvised “submarine version” designed for “Operation Seelöwe”, the invasion of Great Britain in August 1940, the Sturm-Infanteriegeschütz 33B (or sIG-33B), a 1941-42 conversion of regular Panzer IIIs into a self-propelled chassis for the massive 150 mm (5.9 in) field gun, or the Sturmhaubitze 42 (StuH 42), of which 1024 were built. Other conversions included the Flammpanzer III Ausf.M(Fl), an Ausf.M-based flamethrower version, the Panzerbefehlswagen III command tanks and the Artillerie-Panzerbeobachtungswagen III, which was an advanced artillery observation model of which 262 were produced, appearing on the Russian front in 1943. The Bergepanzer III recovery tank was a late (1944) version affected to the Eastern Front, mostly to Tiger units.
Another late Panzer III development was the SdKfz. 141/4, officially called Panzerspähwagen III but better known as Spähpanzer III. It was, like the Panzerbefehlswagen III, not a newly produced vehicle but rather converted from recovered late Panzer III chassis. It was developed and introduced as an alternative to the SdKfz. 234 8x8 heavy scout cars, primarily for areas where better armor and off-road capabilities were called for, and where range was not a vital asset. In fact, the Panzerspähwagen III was more or less a direct alternative to the stillborn VK 1602 ‘Leopard’ light tank, very similar to it in many aspects.
As a dedicated scout vehicle, the Panzerspähwagen III was not designed to fight tanks. Its primary mission was rather to guide heavier battle tanks to potential targets in both offensive and defensive situations, and it would also act as an artillery scout. The crew was expected to race in front of the main Panzer Division or lie in wait ahead of defensive strongholds and search out the enemy. Once they had found them, they were to use speed to get out of range or a powerful radio set to report what they had seen, so that the main attack could be prepared.
Tailored to this task, the Spähpanzer III was simplified and lightened. It had a reduced crew of only four, with only the commander and a loader in a new turret - basically the same horseshoe-shaped turret that had originally been developed for the unrealized VK 1602, and which had also found its way on the highly successful SdKfz. 234/2, too. However, in order to provide the commander with a better all-round field of view under closed hatch conditions, a standard cupola was added. Another new piece of equipment was a stereoscopic rangefinder, useful for both reconnaissance and gun aiming. A stowage box was frequently mounted to the turret’s rear, too.
While the hull armor of up to 50 mm was retained, the turret’s armor was relatively light: the front was protected by 30 mm (1.2 in) armor at an angle of 20° from the vertical, the sides and rear had 10 mm armor set at 25°, and the top plate was 10 mm (0.39 in) armor, too. The gun mantlet was rounded and was effectively 40 to 100 mm (1.6 to 3.9 in) thick. Due to its small size and low weight, the turret only had a manual traverse (saving more weight and resources) and -10° to +20° depression/elevation.
The main gun was a 50 mm (1.97 in) KwK 39/1 L/60, which was sufficient to engage lightly armored enemies. It could, however, when firing armor piercing rounds from a favorable angle, penetrate at short range (100m) up to 130mm of armor at a 30° angle, enough to overcome a T-34’s armor – but this was not the vehicle’s task and rather a desperate measure. To support the vehicle’s escape, defensive smoke dischargers were often mounted, too. A 7.92 mm (0.31 in) Mauser MG 42 machine gun was fixed coaxially to the main gun, another machine gun of the same type was carried in a ball mount in a modified glacis plate. The latter was an attempt to improve the tank’s frontal protection through the clever use of angle instead of trying to add ever more armor and, consequently, weight. On the new glacis plate, the 50 mm armor was effectively extended to 115mm, and the shallow angle also deflected incoming rounds more easily. However, the rest of the armor remained almost vertical, so that this gain in protection was only marginal.
For even better ballistic protection both hull crew members (driver and radio operator) had only periscopes, similar to the late Panzer V “Panther” versions. Open vision ports at the front were deleted and therefore weak points in the front armor, even though the side ports were retained. Thanks to the smaller and lighter turret, both driver and radio operator in the hull also received individual hatches in the hull roof, which were greatly appreciated by the crews. They not only offered a better field of view when not under fire, they also provided them with a much improved escape route: former Panzer IIIs with turrets lacked these hatches and the only escape options from the hull were either via the turret or through small emergency hatches in the lower flanks, right through the running gear. The raised glacis plate furthermore offered more internal space in the tank’s front end, so that a new, semi-automatic gearbox could be installed, which made handling easier.
As a command vehicle, the Panzerspähwagen III carried two radio sets: a FuG 2 command channel set with a FuG 122 aerial, and a FuG 5 radio with an intercom system. This arrangement allowed tank commanders to listen on one frequency while transmitting and receiving on the FuG 5. This meant that the commander could listen to the regimental command net while talking to other tanks at the same time. This radio receiver could listen into a total of 125 channels, at 50 kHz channel steps in the 27.0 to 33.3 MHz range. The system had a usable range of around 4 km to 6 km, depending on the atmospheric conditions and the surrounding landscape.
Due to material shortages, esp. the lack of natural and synthetic rubber, most Panzerspähwagen III conversions received simplified, lightweight all-metal road wheels, which made the ride less comfortable but helped to reduce the vehicle’s overall weight. Protective side-skirts against hollow charges could be mounted, but these were normally left away since they added weight and got easily lost in action, so that their benefit was only marginal – and the Panzerspähwagen III was expected to avoid direct confrontations, anyway. Altogether, the Panzerspähwagen III weighed about 19 tons, five tons less than the final Panzer III battle tank versions with 75mm guns and uprated armor, and this markedly improved the vehicle’s performance and agility. The light turret, which markedly lowered the vehicle’s center of gravity, improved the handling, too.
A few Panzerspähwagen IIIs were ready to fight in Normandy in 1944, but their movements were constrained because of Allied air supremacy. However, a good use of the bocage proved that the Panzer III was still a match for most Allied tanks and that the Spähpanzer concept worked well. Only a limited number of this SdKfz. 141 type was produced, though, since resources were concentrated on the development and production of heavy battle tanks. Production numbers are uncertain, but less than 50 Panzerspähwagen IIIs seem to have been re-built until early 1945.
By the end of 1944 the regular Panzer IIIs were no longer the bulk of the German armored forces, and they were relegated to second line duties, e .g in composite small defensive units. And as the production had stopped earlier, their numbers decreased even more, and by fall of 1944, there were perhaps 80 still operational on the Eastern Front. By then, new generations of US, British and Soviet tanks had nailed their coffin. The type had reached its limits as a battle tank, its former advanced features were now commonly used, and no further up-gunning was possible.
The last Panzer IIIs fought in the Netherlands, Northern Italy (Gothic line), and in eastern Prussia. Perhaps a handful still operational were spread between desperately weakened companies in March-April 1945, like the Steiner Brigade.
Specifications:
Crew: Four (commander/gunner, loader, driver, radio-operator/hull machine gunner)
Weight: 19.2 tonnes
Length: 5.56 m (18 ft 3 in), hull only
6,04 m (19 ft 10 in) overall
Width: 2.90 m (9 ft 6 in)
Height: 2.41 m (7 ft 11 in) w/o antenna mast
Suspension: Torsion bar
Fuel capacity: 320 liter
Armor:
15 – 50 mm (0.6 – 1.97 in)
Performance:
Maximum road speed: 44 km/h (27 mph)
Off-road speed: 28 km/h (18 mph)
Operational range: 165 km (103 mi) with internal fuel
Power/weight: 15.63 PS (11.24 kW)/tonne
Engine:
Maybach HL120 TRM water-cooled 12-cylinder gasoline engine with 300 PS (296 hp, 220 kW),
combined with a Maybach OG 55 11 77 semi-automatic transmission
Armament:
1× 50 mm (1.97 in) KwK 39/1 L/60 with sixty rounds
2× 7.92 mm MG 42 machine guns (coaxial with main gun and in the front hull) with 2.400 rounds
The kit and its assembly:
This converted Panzer III was spawned by the idea that, by 1944, this 1936 design could have been re-built for a different use than a battle tank – a task for which this medium tank had become much too light, with an utter lack of development potential. A dedicated recce variant appeared plausible. This idea was further promoted by the fact that I had a surplus VK 1602 turret in the donor bank, left over from a Hasegawa SdKfz. 234/2 “Puma”.
The chassis was taken from a Revell “Panzer III Ostwind” kit and modified in two ways. Firstly, I changed the glacis plate, replacing the old-school vertical front with a sloped alternative, crafted from styrene sheet pieces. A new ball mount for the hull machine gun was added, as well as periscopes for the crew on new hatches, which became possible through the smaller turret.
The turret opening in the hull had not to be adapted to the smaller Puma turret – the latter was only a little bit smaller than the opening, so that some spacers were enough to make it fit snuggly, and a thin “distance ring” between hull and turret was added, too, so that it would not directly sit on the body. Fairings for a stereoscopic rangefinder were added to the turret flanks, scratched from styrene profile material, and I also added a typical Panzer III stowage box to the turret’s rear. It had to be customized to the smaller “Puma” turret, but I think that this visual enlargement of the turret is a good balance to the rest of the hull, and the box changes the vehicle’s silhouette, too. The commando cupola from the Revell kit (which comes, beyond the open “Ostwind” AA turret, with a full, early standard Panzer III turret) was left open, using the hatch from the VK 1602 turret, and I put a figure into the opening – this German commanding officer is actually 1:76, but that’s not obvious. The figure comes IIRC from a Matchbox “Wespe” SPG that I built more than 30 years ago. Since the figure had somehow lost a leg in the meantime, the Panzerspähwagen III became a suitable new workplace for the handicapped, after having been stripped off of an old enamel paint layer and outfitted with a multi-colored new uniform. Other small changes include the scratched antenna mast for the vehicle’s uprated radio equipment (from heated sprue material) and some re-arranged external equipment.
As another, subtle gimmick, I replaced the original main wheels, for a different and somewhat confusing look. A simplified running gear, without rubber on the main wheels, appeared quite plausible for 1944 onwards. The new road wheels came from a Zvezda IS-2 tank. I had a dozen of these left over from another conversion project, just in the right number and their diameter is virtually identical to the Panzer III’s original wheels! Just the spare wheels had to be taken over from the Revell kit. The fiddly OOB segmented plastic tracks were replaced with soft vinyl tracks from a Panzer III/IV CMK aftermarket set. Personally, I find them easier to handle and to paint – due to their anthracite black color and the material’s smoothness. Nice stuff!
Painting and markings:
As a late WWII vehicle I decided to apply a non-standard/fictional paint scheme, something different from the popular “Hinterhalt” scheme, and I settled upon a pattern similar to an E-100 tank I had built a while ago. The scheme consists of an overall coat of grey-green (RLM02, a universal and omnipresent tone) with disrupting, large spots of dark grey (RAL 7021, Schwarzgrau), which were strategically placed over corners and edges of the hull, so that the outlines break up. I adapted the concept onto my modified Panzer III, but somehow this looked goofy – probably due to the much smaller size and classic tank silhouette of the vehicle: the whole affair was way too reminiscent of the Allied late-war “Mickey Mouse” scheme in olive drab and black!
In order to provide a more outstanding look and lighten everything up a little, I added small grey-green mottles to the dark grey areas. After that, however, the still uniform grey-green areas stood out, so that I eventually applied mottles in RAL 7028 (Dunkelgelb) to these areas, too. The contrast is rather low, but I think that the overall look is in the end more balanced with them, and the mottles overall help to break up the outlines even further – and the paint scheme looks more “different” now. The wheels and the running gear sections of the hull were – as a standard order of the time – left without the mottles, because the swirling patterns would be rather obvious when the vehicle was moving.
The basic tones are Revell 45, Humbrol 67 and ModelMaster 1584, later treated with a dark, red-brown overall washing with acrylic paint, dry-painting with a greyish beige all over (Revell 89, nice weathering tone for fresh, clayish mud) and some watercolor in ochre and umbra for dust and mud residues. Tactical markings are minimal and come from the Revell Ostwind kit and a Hasegawa Panther. Finally, the kit was sealed with matt acrylic varnish and some mineral pigments were dusted onto the model’s lower areas.
An interesting result, and the fictional Panzerkampfwagen III looks IMHO disturbingly plausible, as it combines well-known elements and comes with subtle updates/modifications. And somehow the vehicle (unintentionally) reminds me a lot of the comparable M24 Chaffee. And isn’t there a certain look of a mini KV-1, due to the turret’s shape and proportions?
Urbex Benelux -
The side walls and front side are executed vertically. The roof slants to deflect enemy grenades. The back is slanted and had one or two openings. In some examples iron hooks were cast in the façades that could serve to attach camouflage material. The interior was a simple rectangular space reached by a small staircase with two right-angled bends.
In the years 1936-1938 a number of shelters were modified. The front was radically renovated and the shelters were given the character of a machine-gun casemate. About 25 of these converted copies are still present in the New Dutch Waterline.
1989 Mercedes 609D dropside/box with twin-axle caravan.
Daewoo wind deflector. Last taxed in December 2012.
Length: 25 ft
Width: 21 ft
Height: 10 ft
Crew: 1 Pilot
Armaments: 2 Terras Arms Mk V Laser Cannons
Armor: Titanium Plate
Shields: Terras Arms Mk II Deflector Shields
Drive system: Two Saraca sub-light systems Mk III Sarif engines and maneuvering thrusters
Hyperdrive system: None
“They didn't call her the ‘Mamba’ just because the Model run was ‘M’. She’s a killer and I’m proud to call her mine.”
-Vincent “Double Down” Deviate Wing Leader 23rd Terras fighter wing
With the reorganization of the Terran Empire’s space fleet after the Nova War it became Immediately apparent that the older strategy of larger gunships built around older tactics of plasma torpedoes launched at long range wouldn't work against the faster and more nimble Nova League ships. Particularly their interceptors which rang rings (figuratively) around the slower and more heavily armed gunships. The ‘Mamba’ was developed to augment the new generation of Gunships the Mamba's only mission being to provide cover against enemy interceptors. Armed exclusively with rapid fire laser cannons and larger more maneuverable engines and thruster suites the Model 25 Terran Interceptor was integral to the turning point and defeat of the Nova League main battle fleet. Now as tensions with the Centuri Conglomeration separatists rise across the neutral space DMZ between these two powers the Mamba has been seen taking a more active role in the Empires fleets practicing to fight against the more maneuverable, but unshielded, Centuri interceptors.
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Thought I'd get in on the Microspace while I was fiddling
hope you like it
Hail Terras
Also big thanks to this ship www.flickr.com/photos/dragon55/14560146921/in/pool-micros... for giving me the Idea
Carrying a swallow on its smoke deflector as a reminder of its days hauling the "Tsubame" (Swallow) express between Tokyo and Osaka; and a "1st anniversary" disk to reflect the reincarnation of the Umekoji Steam Locomotive Museum as the Kyoto Railway Museum, it was a delight to see this engine in steam.
Now running minus its smoke deflectors, Maunsell S15 No. 847 climbing Freshfield bank with the 1.30pm train to East Grinstead.
An unknown Gresley A3 pacific - with 'German style' smoke deflectors, and an original GN tender, and a badly-burned smokebox door - passing Stevenage station in 1962.
Only one of the class survived, and 60103 - or 4472 - is coming to the end of a protracted, costly, and incident-prone restoration, and should finally be returning to steam by 2015..
Restored from an unfocussed, orange/brown-spotted original..
Original slide - photographer unknown
My MG HS (AS23) HISTORY & TIMELINE has moved to a new website here:
mghsas23historytimeline.webstarts.com/
With updated posts and data and tons of information on the MG HS and PHEV variants in the UK and all around the world.
Regards
Paul Williams
02.09.2016, Neu-Welzow
11 ORAP, used by Il-28 & Yak-28 and Su-24MR/MP & MiG-25 recce versions at the end
46100, Royal Scot with smoke deflectors and in BR brunswick green at Foley Park, Severn Valley Railway, Sep 2015.